Week of 9/11
(Difference between revisions)
Line 9: | Line 9: | ||
− | <math>E_t = (E_0 t^2) e^{i \omega L/c} + r^2 (E_0 t^2) e^{i \omega 3L/c} + r^4 (E_0 t^2) e^{i \omega 5L/c} ....</math> | + | <math>E_t = (E_0 t^2) e^{i \omega L/c} + r^2 (E_0 t^2) e^{i \omega 3L/c} + r^4 (E_0 t^2) e^{i \omega 5L/c} .... \,</math> |
or | or | ||
<math>E_t = (E_0 t^2) e^{i \omega L/c}\left[ 1 + r^2 e^{i \omega 2L/c} + r^4 e^{i \omega 4L/c} ...\right] </math> | <math>E_t = (E_0 t^2) e^{i \omega L/c}\left[ 1 + r^2 e^{i \omega 2L/c} + r^4 e^{i \omega 4L/c} ...\right] </math> |
Revision as of 15:05, 13 September 2006
Here is a great resource for mathematics and Mathematica: Mathworld, the on-line free mathematics encyclopedia
Download amplitude and phase spectrum of a single resonance. |
Download 9/11/06 lecture notes |
9/13/06: More on the Fabry-Perot etalon
or